Mars Lander Runs into Tough Digging

This image taken by Phoenix's Robotic Arm Camera on Sunday, June 29, shows the trench known as "Snow White 5." The trench is about 1.5-to-1.9 inches (4-to-5 centimeters) deep, about 9 inches (24 centimeters) wide and 13 inches (33 centimeters) long. Snow White 5 is located in a patch of Martian soil near the center of a polygonal surface feature, nicknamed "Cheshire Cat." The digging site has been named "Wonderland."

NASA's Phoenix Mars Lander has hit a roadblock while tryingto scoop a sample of dirt into one of its ovens.

For the past day, Phoenixhas been using its robotic arm to scrapeaway at a hard icy surface on the red planet, trying to claw enough dirt outto pour into its onboard instrument. So far, it has only accumulated smallpiles of shavings, which it has not been able to scoop into the oven.

Phoenix robotic arm co-investigator Ray Arvidson ofWashington University in St. Louis compared the probe's task to trying toscrape away at a sidewalk.

"We have three tools on the scoop to help access iceand icy soil," Arvidson said. "We can scoop material with the backhoeusing the front titanium blade; we can scrape the surface with the tungstencarbide secondary blade on the bottom of the scoop; and we can use a high-speedrasp that comes out of a slot at the back of the scoop."

He said the team hoped to make some progress with amotorized rasp tool on Phoenix's robotic arm to help dig into the hard icy soiland ice deposits.

Though the probe managed to scrapeaway a bit of material from the surface, the small piles it accumulatedwere smaller than on previous digs, and it wasn't able to get any of the dirtinto its scoop.

"It's like trying to pick up dust with a dustpan, butwithout a broom," said Richard Volpe, an engineer on Phoenix's robotic armteam from NASA's Jet Propulsion Laboratory in Pasadena, Calif.

On Monday Phoenix performed 50 scrapes in a trench called"Snow White" it had previously dug. The material is intended to beanalyzed in Phoenix's onboard oven instrument, the Thermal and Evolved GasAnalyzer (TEGA), to determine its chemical properties.

The $420 million Phoenix probe landed May 25 in the northernpolar region of Mars in search of signs the environment could be habitable tolife.